RU2182456C1 - Automatic composting biological lavatory apparatus - Google Patents

Abstract

FIELD: sanitary engineering. SUBSTANCE: apparatus has casing, cover, funnel connected to biological decomposition chamber made in the form of truncated cone, electric heating members located in lower part of decomposition chamber between double walls, and electric drive connected to discharge unit shaft arranged axially of truncated cone. Decomposition chamber discharge opening made in small base of truncated cone is communicated with compost collecting container. Discharge unit has shaft carrying blades made in the form of disks equipped with outer edge extending in spiral coil path. Incomplete slot made in each disk is extending along line, which connects leading and tailing ends of spiral to disk center. Disk edges in the vicinity of recess are separated by angle α equal to 3-30 deg. Each subsequent disk fixed to shaft is turned relative to previous disk with respect to recess lines through angle β equal to 60-90 deg. Apparatus may be used in lavatories adapted to be filled with powdered biologically reprocessing substances such as peat etc. EFFECT: simplified construction and increased efficiency. 5 cl, 4 dwg

Description

 The invention relates to sanitary-hygienic equipment, in particular to latrines with devices for filling with powdered bioprocessing substances, for example peat.

 Known dry closet [1], containing the main unit with a reservoir equipped with a retaining ring for selective fixation in this reservoir of a bag-like element for receiving urine and feces. Under the main unit there is a device for grinding feces, equipped with a section for separating feces from liquid and an electric drive. The main unit and the device are located inside the housing, made with a compartment for grinding feces and with a section for drying feces.

 The disadvantage of this dry closet is the structural complexity.

 Also known is a composting automated dry closet [2], comprising a housing, a funnel, a lid, a biodegradation chamber with an inlet and a agitator, and electric heating elements.

 A disadvantage of the known device is the irrational placement of electric heating elements, which reduces the efficiency of the biodegradation process.

 The closest in technical essence to the proposed technical solution is a composting automated dry closet [3], comprising a body, funnel, lid, biodegradation chamber with an inlet and a tedder, electric heating elements, while the biodegradation chamber is made in the shape of a truncated cone mounted obliquely with its longitudinal axis towards a larger base, and is equipped with an unloading unit that carries the function of a tedder, while the electric heating elements are grouped into zones of different ogreva sequentially disposed in biodegradation chamber from the greater base of the truncated cone on the basis of the corresponding power.

 In the biodegradation chamber there are evaporation, bioprocessing and sterilization zones.

 In the known device, the unloading unit is made in the form of a screw placed on the longitudinal axis of the biodegradation chamber with a drive, an outlet in the specified chamber and a compost collection tank, fortified with its neck on the outer surface of the biodegradation chamber.

The screw is made conical with a decreasing pitch of the working blade to the smaller base of the biodegradation chamber, and its longitudinal axis is inclined at an angle of 5-15 ^o to the horizontal, and the screw drive is made in the form of an electric motor with a gearbox.

 The known device has the disadvantage that the screw design is structurally difficult and at the same time does not provide efficient mixing of solid fractions with bioprocessing substances and reliable discharge of the resulting mixture into a compost collecting tank.

The technical result of the invention, which consists in eliminating the noted drawbacks, is achieved in the proposed composting automated dry closet, comprising a housing, a lid, a funnel connected to a biodegradation chamber made in the form of a truncated cone and equipped with an unloading unit made in the form of a shaft with blades mounted on it, electric heating elements located in the lower part of the biodegradation chamber between the double walls, an electric drive connected to the shaft of the unloading unit located along the truncated axis of the cone, the outlet of the biodegradation chamber on the side of the small base of the cone is connected with the compost collecting tank, in that the working blades of the unloading unit are made in the form of disks, the outer edge of which is made along the path of the spiral, an incomplete section is made in each disk along the line connecting the beginning and end of the spiral with the center of the disk, the edges of the disk near the section are divorced by an angle α = 3-30 ^o , attached to the shaft of the discharge unit, each subsequent disk is rotated in relation to the previous disk relative to the cutting lines by an angle β = 60-90 ^o .

In addition, the technical result is achieved by the fact that the shaft of the unloading unit is connected to the electric drive through a coupling sleeve, freely mounted on one side of the electric drive shaft and secured thereto by a first fixing pin, and on the other hand, this coupling is connected to the shaft of the unloading unit by means of a second fixing pin located at an angle of 90 ^o with respect to the first locking pin.

 To improve the operation of the unloading unit, its shaft is made flexible, and a fork-shaped agitator is fixed at its end.

 For better cleaning of the unloading unit, the electric drive is made reversible.

 The essence of the proposed technical solution is illustrated by drawings, where in FIG. 1 shows a general view of the dry closet; figure 2 a) and 2 b) shows the design of the connecting node and the design of the working blades - disk; figure 3 shows the design of the unloading unit.

 The proposed device (figure 1) contains a housing 1, a cover 2 made of metal or plastic, a funnel 3 made of ceramic or stainless metal and connected with a biodegradation chamber 4 made in the form of a truncated cone.

 The biodegradation chamber 4 is equipped with an unloading unit (Fig. 2 and Fig. 3), made in the form of a shaft 5 with blades 6 mounted on it.

 The device also has electric heating elements (not shown) located in the lower part of the biodegradation chamber 4 between the double walls, an electric drive connected to the shaft 5 of the discharge unit, located along the axis of the truncated cone.

 The outlet of the biodegradation chamber 4 from the side of the small base of the cone is connected to a container 8 for collecting compost.

 The device is installed on the basis of 9, and the biodegradation chamber 4 is mounted on the supporting elements 10.

 The working blades 6 of the unloading unit are made in the form of disks mounted on the shaft 5 of the unloading unit. The outer edge of the disks 6 is made along the path of the spiral. In each disk 6, an incomplete section is made along the line connecting the beginning and end of the spiral with the center of the disk (see Fig. 2).

The edges of the disks 6 near the section are divorced by an angle α = 3-30 ^o , each subsequent disk is rotated relative to the previous disk relative to the lines of the section by an angle β = 60-90 ^o .

The shaft 5 of the discharge unit is connected to the electric drive 7 through a coupling 11, freely mounted on one side of the shaft of the electric drive 12 and secured thereto by a first locking pin 13. On the other hand, the coupling 11 is connected to the shaft 5 by means of a second locking pin 14 located at an angle of 90 ^o with respect to the first locking pin 13.

 The shaft 5 of the unloading unit may be rigid or flexible (the second embodiment is preferred).

 At the end of the shaft 5, facing the side of the tank 8, a fork-shaped agitator 15 is fixed.

 The electric drive 7 is made reversible, which improves operating conditions.

 In FIG. 1 also shows an exhaust elbow 16 connected to the ventilation system 17.

 The device operates as follows.

 Human waste comes together with water or disinfecting liquid through a funnel 3 through an inlet (not shown) to the biodegradation chamber 4. The liquid phase of the waste flows into the lowest located zone, where the most intense evaporation and vapor removal occurs using heaters (not shown) through the ventilation system 17. In this case, the waste is poured with peat in the required quantity.

 Then the electric drive 7 is turned on and the shaft 5 is driven into rotation.

 With the help of disks b, waste and peat are mixed, crushed and moved in the direction of capacity 8 for compost collection. As the mixture moves, it is additionally heated and sterilized.

 Fork agitator 15 contributes to better grinding of the resulting mixture. Upon completion of the compost preparation process, it is discharged into a container 8.

 The design of the unloading unit and the configuration of the disks 6 is optimal for the most efficient mixing, grinding and advancing the mixture.

 The design of the coupling 11 allows the end of the shaft 5 to rotate around the pins 13 and 14 with an accidental increase in load and occupy the necessary position in order to overcome the load. In the manufacture of a flexible shaft and the use of a reversible motor, the working conditions of the unloading unit and the operation of the device are also improved.

 The device allows to reduce the time of compost preparation from human waste and improve the operating conditions of the dry closet without the use of sewers.

 Available materials (plastic, stainless steel, etc.) are used for the manufacture of components and components of dry closets.

 The device is in industrial manufacture, it is used both in urban conditions and in summer cottages, it allows to prepare fertilizer-compost and increases the degree of environmental protection from pollution.

Sources of information
[1]. U.S. Patent 5887290A, M.C. A 47 K 11/02, 1999

 [2]. RF patent 2121806, M.cl. A 47 K 11/03, 1998

 [3]. RF patent 2164373, M.C. A 47 K 11/03, 2000

Claims (5)

1. Composting automated dry closet containing a housing, a lid, a funnel associated with a biodegradation chamber made in the form of a truncated cone and equipped with an unloading unit made in the form of a shaft with blades mounted on it, electric heating elements located in the lower part of the biodegradation chamber between the double walls , an electric drive associated with the shaft of the unloading unit located along the axis of the truncated cone, the outlet of the biodegradation chamber from the side of the small base of the cone is connected with a collection vessel compost, characterized in that the working blades of the unloading unit are made in the form of disks, the outer edge of which is made along the path of the spiral, in each disk an incomplete section is made along the line connecting the beginning and end of the spiral to the center of the disk, the edges of the disk near the section are divorced by angle α = 3-30 ^o , mounted on the shaft of the unloading unit, each subsequent disk is rotated in relation to the previous disk relative to the cutting lines at an angle β = 60-90 ^o . 2. Composting automated dry closet according to claim 1, characterized in that the shaft of the unloading unit is connected to the electric drive through a connecting sleeve freely mounted on one side of the electric drive shaft and secured thereto by a first locking pin, and on the other hand, said coupling is connected to the shaft of the assembly unloading by means of a second locking pin located at an angle of 90 ^° with respect to the first locking pin.  3. Composting automated dry closet according to claim 1, characterized in that the shaft of the unloading unit is flexible.  4. Composting automated dry closet according to claim 1, characterized in that a fork-shaped agitator is fixed at the end of the shaft of the unloading unit.  5. Composting automated dry closet according to claim 1, characterized in that the electric drive is reversible.

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